6533b871fe1ef96bd12d2692
RESEARCH PRODUCT
Retrieving Monitoring and Accounting Information from Constrained Devices in Internet-of-Things Applications
Oleksiy MazhelisPasi TyrväinenBurkhard StillerGuilherme Sperb MachadoMartin Waldburgersubject
10009 Department of InformaticsComputer scienceDistributed computingInternet of ThingsReal-time computingMonitoring and Accounting Infrastructure020206 networking & telecommunications02 engineering and technology000 Computer science knowledge & systemsSimple Network Management ProtocolConstrained Application ProtocolSecurity Assertion Markup Language[INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI]Resource (project management)CoAPAccounting information system0202 electrical engineering electronic engineering information engineering[INFO]Computer Science [cs]esineiden internet020201 artificial intelligence & image processing1700 General Computer Science2614 Theoretical Computer ScienceWireless sensor networkProtocol (object-oriented programming)description
Part 6: Monitoring Mechanisms; International audience; Internet-of-Things (IoT) is envisioned to provide connectivity to a vast number of sensing or actuating devices with limited computational and communication capabilities. For the organizations that manage these constrained devices, the monitoring of each device’s operational status and performance level as well as the accounting of their resource usage are of great importance. However, monitoring and accounting support is lacking in today’s IoT platforms. Hence, this paper studies the applicability of the Constrained Application Protocol (CoAP), a lightweight transfer protocol under development by IETF, for efficiently retrieving monitoring and accounting data from constrained devices. On the infrastructure side, the developed prototype relies on using standard building blocks offered by the AMAAIS project in order to collect, pre-process, distribute, and persistently store monitoring and accounting information. Necessary on-device and infrastructure components are prototypically implemented and empirically evaluated in a realistic simulation environment. Experiment results indicate that CoAP is suited for efficiently transferring monitoring and accounting data, both due to a small energy footprint and a memory-wise compact implementation.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-06-25 |